Apparatus for making knockouts in electrical boxes formed of plastic material

ABSTRACT

Knockouts are formed in electrical fixtures, such as connector boxes made of plastic sheet material, by punching the knockouts from plastic sheet or blanks prior to shaping into the fixture or by shaping the fixture and then punching out the knockouts. By resiliently supporting the material surrounding the knockout area on the punch side and resiliently biasing a knockout stripper against the surface of the knockout opposite that contacted by the punch, knockouts can be punched out and replaced in the material in a single operation if the opposite biasing forces of the support and knockout stripper are properly correlated.

FI 7904 OR 395809122 [72] Inventor James C- P well 3,217,574 11/1965 Nauta et a1. 83/685X Elkhart, Ind. 3,383,065 5/1968 Bergeron et al. 83/108X [21] Appl. No. 783,584 3,413,880 12/1968 Foist 83/182X [22] Filed Dec. 13,1968 3,465,634 9/1969 Blais 83/695 [45] Patente May 2 ,1971 3,485,124 12/1969 Merchant 83/194X [73] Asslgnee All-Sm] Eqmpmem Primary Examiner-Frank T. Yost Attorney-Mann, Brown and McWilliams [54] APPARATUS FOR MAKING KNOCKOUTS IN ELECTRICAL BOXES FORMED OF PLASTIC MATERIAL 16 Claims, 5 Drawing Figs.

[52] US. Cl 83/108, ABSTRACT; Knockouts are f d i l t i l fixture 83/128, 33/182, 83/194, 83/685 83/695 such as connector boxes made of plastic sheet material, by Int. punching the knockouts from Sheet, 01' blanks prior to B26f1/14 shaping into the fixture or by shaping the fixture and then [50] Field 01' Search 117/49; hi t th k k t By resiliently supporting the 83/108 127, 194, material surrounding the knockout area on the punch side and 695 resiliently biasing a knockout stripper against the surface of the knockout opposite that contacted by the punch,

[56] References Cited knockouts can be punched out and replaced in the material in' UNITED STATES PATENTS a single operation if the opposite biasing forces of the support 3,1 1 1,053 l 1/1963 Svensson 83/124 and knockout stripper are properly correlated.

PATENTED. m2 5 l97l I SHEET 1 OF 2 APPARATUS FOR MAKING KNOCKOUTS IN ELECTRICAL BOXES FORMED OF PLASTIC'MATERIAL BRIEF SUMMARY OF THE INVENTION This invention is directed to plastic electric fixtures, such as electrical boxes, containing knockouts and apparatus and method for making such knockouts. In fabricating electrical boxes and other fixtures it is necessary to form knockouts which can be easily removed from the box for the purpose of permitting electrical wires to pass therethrough and for fastening the ends of the conduits through which the wires pass.

It has been discovered that knockouts can be formed in the sheet (from which the box is formed) in a continuous manner prior to cutting the box blanks from the sheet by supporting the sheet area surrounding the punch against a springmounted stripper plate by means of springs which normally hold the plate in a predetermined position but which permit the plate to be depressed during the punching operation. One or more knockout punches are fixedly mounted so that they extend through holes in the plate with'their end surfaces coplanar with the surface of the stripper plate when the stripper plate is in normal position. The die cavity contains a knockout stripper element which is spring-biased in the direction of the knockout punches and is slideably mounted in the die cavity. When the die is actuated on its work stroke, the spring-biased knockout stripper is biased against the plastic sheet. The plastic sheet is held tightly between the stripper plate and the die, causing the knockout to be punched out of the sheet and held between the knockout punch and the knockout stripper. On the release stroke of the die the springs force the stripper plate and sheet upwardly. The opposing biasing force of the knockout stripper and stripper plate springs is sufficient to reinsert the knockout in the hole from which it was punched in substantially coplanar relationship with the sheet, whereupon the die engages the knockout stripper causing it to move in unison with the die. The sheet is then free to be advanced to the next station.

When the article is preformed before the knockouts are punched the operation can be performed by placing the article on a fixed die shaped so as to enable the shaped article to fit snugly thereon, and the knockouts are punched with a moving punch. The articles can be placed on and removed from the die by hand or by a suitable mechanism. Otherwise the essential operation is the same as that described in connection with the punching of sheet material.

It is an object of the invention to provide apparatus for forming punched knockouts. in plastic sheet. It is another object of the invention to provide an apparatus for forming knockouts in preformed plastic articles intended for use as electrical fixtures.

It is still another object of the invention to provide a method for forming punched knockouts in plastic sheet material or preformed plastic articles.

Still another object of the invention is to provide plastic bodies with punched knockouts that can be readily removed.

SHORT DESCRIPTION OF THE DRAWINGS FIG. 1 is a vertical cross section through the center of the apparatus for punching knockouts in plastic sheet material in accordance with the invention;

FIG. 2 is a two position vertical cross section through the center of apparatus for punching knockouts in formed plastic articles;

FIG. 3 is a fragmentary perspective view of a punch;

FIG. 4 is a fragmentary perspective view of a die; and

FIG. 5 is a fragmentary perspective view of an electrical box showing a knockout formed in accordance with the invention.

DETAILED DESCRIPTION OF THE INVENTION Referring to FIG. 1, the numeral 1 represents a die shoe which is solidly mounted to the floor. The die shoe has recesses 3 and 5 to receive helical coil springs 7 and 9 respectively.

Removably mounted on the die shoe 1 is a punch holder 11 formed with holes 13 and 15 to allow the springs 7 and 9 to pass therethrough. Tops 17 and 19 of the springs 7 and 9, respectively, extend above the upper surface 21 of the punch holder 11 so that the normal distance between punch holder 11 and stripper plate 12 is somewhat greater than the thickness of the plastic sheet 23 which is to be fed into the device to insure the forming stroke length that is desired.

Mounted in the punch holder 11 are punches 25 and 27 formed with enlarged bottoms 29 and 31 to provide shoulders for abutting against the surface 33 of the recess 35 in the bottom of the punch holder 11. Punches 25 and 27 pass through aligned holes in the punch holder 11 and stripper plate 12.

Stripper plate 12 is mounted on coil springs 17 and 19 with its upper surface 39 coplanar with the upper surfaces of punches 25 and 27 when the plate is in its normal position. As shown in the drawing (FIG. 1), the plate is in depressed position as a result of the knockout die 41 being at the end of its power stroke. A block 43 fits in a recess in the upper surface of die shoe 1 to provide a bearing surface for the knockout punches 25 and 27.

Immediately above stripper plate 12 is the knockout die 41 with cavities 44 and 45 in alignment with the knockout punches 25 and 27. The die is preferably formed with a small groove 46 (see FIG. 4) extending along each die cavity and each punch isformed with a somewhat larger groove 47 (see FIG. 3) extending inwardly from the outer wall of the punch in order to allow a small tab 206 (FIG. 5) to remain holding the knockout to the sheet. Within the die cavities are mounted knockout strippers 40' and 50 which are snugly and slidably mounted. The upper portions of the die cavities are enlarged at 51 and 52 to receive the enlarged portions 53 and 55 of the knockout strippers. The heads 57 and 59 of the knockout strippers are further enlarged to form shoulders to abut against release plate 61 mounted on the top of the die 41. The release plate 61 is formed with openings to accommodate the enlarged portions 53 and 55 of the knockout strippers.

The enlarged head elements 57 and 59 are adapted to contact release plate 61 when the bottom surfaces of the knockout strippers 49 and 50 are substantially coplanar with the bottom surface 62 of die 41.

Mounted above release plate 61 is a spacer 63, the upper surface of which abuts the combination spring retainer and actuator 65. The element 65 is formed with recesses 67 and 69 in which to accommodate coil springs 71 and 73. The upper ends of the coil springs 71 and 73 abut the top of the element 65 and the lower ends of the springs abut the top surface of the knockout strippers 40 and 50 and bias them in the direction of the knockout punches 25 and 27. Springs 71 and 73 have sufficient compressive strength to resist the tendency of knockout strippers 40 and 50 to move upwardly until engaged by release plate 61. The actuator element 65 is caused to reciprocate by a power means, not shown, over a limited stroke longer than the thickness of the plastic sheet 23. The spacer element 63 is formed with a cavity 75 sufficiently large to accommodate the enlarged heads 57 and 59 of the knockout strippers 49 and 50 andpermit the spacer 63 to move both downwardly and upwardly without abutting the heads 57 and 59.

The operation of the device is as follows: a roll or strip of plastic sheet material 23 is fed by an intermittent feeding means, not shown, over the stripper plate 12 between the punches 25 and 27 and the die 41. While the sheet 23 is in a stationary position, the actuating mechanism for the actuator 65 depresses the die 41, causing the punches 25 and 27 to punch circular knockouts 77 and 79 from the sheet 23. Since the punches 25 and 27 are stationary, the sheet moves downwardly with the die 41 and stripper plate 12 with the knockouts 77 and 79 being gripped between the knockout punches and corresponding knockout strippers. On its release or upward stroke, as the die moves upwardly, the release plate 61 abuts the shoulders formed by the enlarged heads 57 and 59 of the knockout strippers but only after the sheet 23 the spacing between the release plate 61 and the lower surfaces of the heads 57 and 59 at the end of the former stroke is substantially the same as the thickness of the sheet.

When the die 41 is lifted free of the sheet 23, the feeder automatically feeds the sheet to the next station and the process is repeated.

It will be evident that any desirable number of knockouts can be punched simultaneously in the sheet. Although I have only shown two punches, the number may be equal to the number required to punch all the knockouts out of a section of the sheet necessary to form a box. It will also be obvious that the stripper plate may be supported by a number of springs greater than two.

After the knockouts are punched and the sheet released as just described, the sheet continues to advance and may then be cut into the blanks of the desired shape and size containing the knockouts ready for cold-formin g.

Referring to FIG. 2, the numeral 100 indicates a shoe having sidewalls 102 and 104 mounted thereon. A hardened steel plate 106 is fastened to each of the walls 102 and 104.

Spaced inwardly from the walls 102 and 104 are punch holders 108 and 110. The punch holders are fastened to the shoe 100. Mounted in the punch holders 108 and 110 are punches 112 and 114 respectively. The punches are formed with elongated grooves 116 and 118 similar to those shown in H6. 3.

Punches 112 and 114 are snugly and slidably mounted in punch holders 108 and respectively.

Punch 112 is fastened to a spacer plate 120 and to an actuator 122 by means of bolt 124 passing through a central hole in the actuator and plate and threaded into a threaded recess in the punch 112. Actuator 122 is formed with cam surface 125. Punch 114-is similarly fastened to spacer 1'26 and actuator 128 by means of bolt 130 passing through central openings in the spacer plate 126 and actuator 128 and threaded into a threaded recess in punch 114. Actuator 128 is formed with cam surface 132. Punch holder 108 is provided with hardened steel plates 134 and 136 between which the spacer plate 120 and the actuator 122 are adapted to slide. Holder 110 is similarly equipped with hardened steel plates 138 and 140 between which the spacer plate 126 and actuator 128 are adapted to slide. Punch holder 108 is provided with two or more equally spaced passageways 142 through each of which is adapted to pass a coiled spring 144, the inner end of which is seated in a recess 145 in spring retainer 146 and the outer end of which is seated in a recess in stripper plate 148. Stripper plate 148 is slidably mounted on the punch. Springs 144 normally hold plate 148 in a position such that its surface is coplanar with the nose surface of punch 112. Similarly, punch holder 110 is provided with two or more passageways through each of which passes a coil spring, the inner end of which is retained in spring retainer 150 and the outer end of which is retained in stripper plate 152.

Each punch holder is also provided with two or more equally spaced recesses 154 between recesses 145 in which seat one end of coil springs 156. The other end of springs 156 seat in recesses 157 in spring retainers 146 and 150. The force of springs 156 is sufficient to return the punch to its normal position shown on the left-hand side of the drawing.

Mounted on the shoe 100 between the two punches is die block 158 having die cavities 160 and 162 aligned with punches 112 and 114 respectively. The end portion of each die cavity is counterbored and there is inserted therein a hardened steel inserts or rings 164 and 166, against which knockout strippers 168 and 170, respectively, slide. The inserts or rings 164 and 166 are formed with elongated grooves 172 and 174, respectively, aligned with grooves 116 and 118 in punches 112 and 114 in order to allow the knockout punch to retain a tab to fasten it to the article in which it is formed.

Mounted in the die cavities 160 and 162 are knockout strippers 168 and 170 having cam surfaces 176 and 178. The strippers 168 and 170 are biased outwardly by biasing element 180 having conical cam surface 182 which coacts with the cam surfaces 176 and 178. Biasing element 180 is forcibly held against the knockout strippers 176 and 178 by means of a coil spring 183 or other resilient force. The lower end of the biasing element 180 is mounted in guide 184 which is fastened to shoe 100 by means of suitable bolts 186 threaded into the shoe. In addition to acting as a retaining means for spring 183, shoulder 188 limits the upward travel of biasing element 180.

Mounted on power actuated reciprocating beam 190 are cams 192 and 194 in alignment with the space between the wall 102 and holder 108 and the wall 104 and the holder 110, respectively. Cam 192 and 194 are formed with cam surfaces 196 and 198 which are adapted to engage the cam surfaces 125 and 132, respectively, during the power stroke of the beam. The width of the cams 192 and 194 is such that when they enter the spaces 200 and 202, respectively, they force the punches toward the die block for a distance sufficient to punch a knockout from the article mounted on the die as shown on the right-hand side of the drawing.

The drawing is split into two parts; the right half showing the apparatus in position when a knockout has been punched and the left half in position of release.

The operation of the apparatus is as follows. An electrical box or other electrical fixture made of plastic sheet material is mounted on the die block 158 while the punches are in release position. As the beam 190 descends the cams 192 and 194 enter the spaces 200 and 202, respectively, forcing the punches and the stripper plates against the outer surface of the article to be punched. As the punch moves to the left, as shown on the right-hand side of the drawing, a knockout is punched but remains fastened to the article by means of the tab 206. Knockout stripper 170 is forced to the left as the knockout is being formed but by reason of the fact that it is biased toward the the punch, the knockout is held tightly between the knockout stripper and the punch.

During the release stroke, the stripper plate as shown on the right side of the drawing remains in contact with the face of the article in which the knockout is formed until the knockout stripper 170 forces the knockout back into the hole from which it was punched and into substantially coplanar relation with the surface of the article as shown on the left side of the drawing. The stripper plate 152 will remain pressed against the surface of the article until the cam 194 during its release stroke allows punch 114 to return to a position out of contact with the knockout. As the springs 156 force the punch, spacer and actuator rearward to fully release position as shown on the left side of the drawing, the stripper plate is released from contact with the article. The apparatus is then ready to have the punched-out article removed and another blank inserted on the die block.

The force of the springs 144 which bias the stripper plates against the surface or area surrounding the knockout and the opposing force of the resilient means 183 forcing the knockout stripper against the knockout are sufficient to cooperate to force the knockout back into the hole from which it was punched, the release stroke of the punch, so that at the end of the operation the knockout is replaced or reinserted in the material in substantially coplanar relationship therewith and held in place by a small tab as shown in FIG. 5. The knockout can then be removed from the article in either direction simply by pushing it out with the thumb or other finger and breaking the tab by bending the knockout. The tab arrangement provided thus permits the knockout to be broken off outside the circumference of the hole formed by the knockout.

Although the invention is applicable to various types of plastic material and articles which have the required ductility and resiliency, it is particularly applicable to the formation of knockouts in sheet and articles made from acrylonitrile-butadiene-styrene copolymers generally known as ABS, such as those sold by Rohm and Haas Company under the name I claim: l. A device for forming knockouts in plastic sheet material 5 comprising:

a. a spring-supported plate;

b. a rigidly mounted punch element extending through said plate so that the end of said element is in approximately the same plane as said plate when the latter is in its normal position;

c. a die element in alignment with said punch element and adapted to be reciprocated toward and away from said punch element;

d. a knockout stripper snugly and slidably mounted in the cavity of said die;

e. spring means biasing said knockout stripper toward said punch element;

f. spring means biasing said plate toward said knockout stripper;

g. said die element and said knockout stripper having cooperating means to prevent said knockout stripper from projecting beyond the face of said die element and to move said knockout stripper in the direction of the die during its release stroke;

h. said spring means being sufficiently strong to return the knockout to a position in the plastic sheet material substantially coplanar therewith at the same locus from which the knockout is cut; and

i. said punch and die elements being formed with aligned grooves of different sizes to form a tab connecting the knockout to the plastic sheet material that is located outside the periphery of the knockout.

2. A device in accordance with claim 1 in which the punch element extends upwardly through said plate from a rigidly mounted punch holder and the plate is supported in a'horizontal position by springs resistant to compression.

3. A device in accordance with claim 1 in which said knockout stripper cooperating means is a shoulder formed adjacent one end of said stripper and said die element cooperat- 40 ing means is a plate, extending into the die cavity, which engages said shoulder.

- 4. A device in accordance with claim 1 in which said spring supported plate is located above a solid base so that in its normal position the space between said base and said plate is at least as great as the thickness of the sheet material.

5. A device in accordance with claim 1 in which said knockout strippers are movable toward and away from the sheet material.

6. A device in accordance with claim 1 in which said cooperating means are arranged to move said knockout stripper free of the knockout when said die member is moved free of the sheet on its release stroke.

7. A device in accordance with claim 1 in which said knockout stripper cooperating means is a shoulder formed adjacent one end of said stripper and said die element cooperating means is a plate, extending into the die cavity, which engages said shoulder.

8. A device in accordance with claim 1 in which said spring supported plate is located above a solid base so that in its normal position the space between said base and said plate is at least as great as the thickness of the sheet material.

9. A device in accordance with claim 1 in which said knockout strippers are movable toward and away from the sheet material.

10. A device in accordance with claim 1 in which said cooperating means are arranged to move said knockout stripper free of theknockout when said die member is moved free of the sheet on its release stroke.

11. A device for forming a knockout in plastic material having substantially parallel opposite surfaces comprising:

a. a stationary die; b. a movable knockout unch aligned with said die; c. means for reciproca ing said punch to and from operational and release positions; d. a resiliently biased knockout stripper mounted in said die and biased toward said punch; e. a support surrounding said punch and resiliently biased toward said die; means for resiliently biasing said knockout stripper and said support toward each other during the release stroke of said punch with sufficient force to return said knockout to the space in said material from which it was punched during the punching stroke of said punch, in substantially coplanar relationship with said material; and

g. said punch and die being formed with aligned grooves of different sizes to form a tab connecting the knockout to the plastic material that is located outside the periphery of the knockout.

12. A device in accordance with claim 11 in which:

h. said punch is actuated during its punch stroke by means of a cam mechanism and is released. by means of a spring mechanism.

13. A device in accordance with claim 11 in which:

h. said knockout punch is' biased by means of a combination cam and resilient mechanism.

14. A device in accordance with claim 12 in which:

i. said die contains knockout strippers operated in opposite directions on opposite sides of said die by a common cam and resilient biasing means; and

j. separate punches, aligned with the opposite sides of said die, are actuated by a common actuator.

15. A device in accordance with claim 11 in which:

h. said knockout punch is biased by means of a combination cam and resilient mechanism.

16. A device in accordance with claim 11 in which:

i. said die contains knockout strippers operated in opposite directions on opposite sides of said die by a common cam and resilient biasing means; and

j. separate punches, aligned with the opposite sides of said die, are actuated by a common actuator. 

1. A device for forming knockouts in plastic sheet material comprising: a. a spring-supported plate; b. a rigidly mounted punch element extending through said plate so that the end of said element is in approximately the same plane as said plate when the latter is in its normal position; c. a die element in alignment with said punch element and adapted to be reciprocated toward and away from said punch element; d. a knockout stripper snugly and slidably mounted in the cavity of said die; e. spring means biasing said knockout stripper toward said punch element; f. spring means biasing said plate toward said knockout stripper; g. said die element and said knockout stripper having cooperating means to prevent said knockout stripper from projecting beyond the face of said die element and to move said knockout stripper in the direction of the die during its release stroke; h. said spring means being sufficiently strong to return the knockout to a position in the plastic sheet material substantially coplanar therewith at the same locus from which the knockout is cut; and i. said punch and die elements being formed with aligned grooves of different sizes to form a tab connecting the knockout to the plastic sheet material that is located outside the periphery of the knockout.
 2. A device in accordance with claim 1 in which the punch element extends upwardly through said plate from a rigidly mounted punch holder and the plate is supported in a horizontal position by springs resistant to compression.
 3. A device in accordance with claim 1 in which said knockout stripper cooperating means is a shoulder formed adjacent one end of said stripper and said die element cooperating means is a plate, extending into the die cavity, which engages said shoulder.
 4. A device in accordance with claim 1 in which said spring supported plate is located above a solid base so that in its normal position the space between said base and said plate is at least as great as the thickness of the sheet material.
 5. A device in accordance with claim 1 in which said knockout strippers are movable toward and away from the sheet material.
 6. A device in accordance with claim 1 in which said cooperating means are arranged to move said knockout stripper free of the knockout when said die member is moved free of the sheet on its release stroke.
 7. A device in accordance with claim 1 in which said knockout stripper cooperating means is a shoulder formed adjacent one end of said stripper and said die element cooperating means is a plate, extending into the die cavity, which engages said shoulder.
 8. A device in accordance with claim 1 in which said spring supported plate is located above a solid base so that in its normal position the space between said base and said plate is at least as great as the thickness of the sheet material.
 9. A device in accordance with claim 1 in which said knockout strippers are movable toward and away from the sheet material.
 10. A device in accordance with claim 1 in which said cooperating means are arranged to move said knockout stripper free of the knockout when said die member is moved free of the sheet on its release stroke.
 11. A device for forming a knockout in plastic material having substantially parallel opposite surfaces comprising: a. a stationary die; b. a movable knockout punch aligned with said die; c. means for reciprocating said punch to and from operational and release positions; d. a resiliently biased knockout stripper mounted in said die and biased toward said punch; e. a support surrounding said punch and resiliently biased toward said die; f. means for resiliently biasing said knockout stripper and said support toward each other during the release stroke of said punch with sufficient force to return said knockout to the space in said material from which it was punched during the punching stroke of said punch, in substantially coplanar relationship with said material; and g. said punch and die being formed with aligned grooves of different sizes to form a tab connecting the knockout to the plastic material that is located outside the periphery of the knockout.
 12. A device in accordance with claim 11 in which: h. said punch is actuated during its punch stroke by means of a cam mechanism and is released by means of a spring mechanism.
 13. A device in accordance with claim 11 in which: h. said knockout punch is biased by means of a combination cam and resilient mechanism.
 14. A device in accordance with claim 12 in which: i. said die contains knockout strippers operated in opposite directions on opposite sides of said die by a common cam and resilient biasing means; and j. separate punches, aligned with the opposite sides of said die, are actuated by a common actuator.
 15. A device in accordance with claim 11 in which: h. said knockout punch is biased by means of a combination cam and resilient mechanism.
 16. A device in accordance with claim 11 in which: i. said die contains knockout strippers operated in opposite directions on opposite sides of said die by a common cam and resilient biasing means; and j. separate punches, aligned with the opposite sides of said die, are actuated by a common actuator. 